CHARACTERIZATION OF Ni-Ti ARCHWIRE TOPOGRAPHY AFTER EXPOSURE TO DIFFERENT CORROSIVE MEDIA
DOI:
https://doi.org/10.24867/11AM04BobicKeywords:
orthodontic therapy, Ni-Ti archwire, corrosion, topography, surface roughnessAbstract
This work presents the results of examination of Ni-Ti (nitinol) archwire topography before and after the exposure to corrosive media.
References
[1] R.S. Nanda, Y. Tosun, Biomechanics in orthodontics: Principles and practice, 2010.
[2] K. House, F. Sernetz, D. Dymock, J.R. Sandy, A.J. Ireland, Corrosion of orthodontic appliances-should we care?, Am. J. Orthod. Dentofac. Orthop. Vol.133, pp.584–592, 2008.
[3] C.M. Ogawa, K. Faltin, F.A. Maeda, C.L.F. Ortolani, R.O. Guaré, C.A.B. Cardoso, A.L.F. Costa, In vivo assessment of the corrosion of nickel–titanium orthodontic archwires by using scanning electron microscopy and atomic force microscopy, Microsc. Res. Tech, Vol. 83, pp. 928–936, 2020
[4] K. House, F. Sernetz, D. Dymock, J.R. Sandy, A.J. Ireland, Corrosion of orthodontic appliances-should we care?, Am. J. Orthod. Dentofac. Orthop. Vol 133, pp.584–592, 2008 .
[5]M. Cioffi, D. Gilliland, G. Ceccone, R. Chiesa, A. Cigada, Electrochemical release testing of nickel-titanium orthodontic wires in artificial saliva using thin layer activation, Acta Biomater. Vol. 1 pp.717–724, 2005 .
[6]S.M. Castro, M.J. Ponces, J.D. Lopes, M. Vasconcelos, M.C.F. Pollmann, Orthodontic wires and its corrosion - The specific case of stainless steel and beta-titanium, J. Dent. Sci.Vol.10, pp. 1–7, 2015.
[2] K. House, F. Sernetz, D. Dymock, J.R. Sandy, A.J. Ireland, Corrosion of orthodontic appliances-should we care?, Am. J. Orthod. Dentofac. Orthop. Vol.133, pp.584–592, 2008.
[3] C.M. Ogawa, K. Faltin, F.A. Maeda, C.L.F. Ortolani, R.O. Guaré, C.A.B. Cardoso, A.L.F. Costa, In vivo assessment of the corrosion of nickel–titanium orthodontic archwires by using scanning electron microscopy and atomic force microscopy, Microsc. Res. Tech, Vol. 83, pp. 928–936, 2020
[4] K. House, F. Sernetz, D. Dymock, J.R. Sandy, A.J. Ireland, Corrosion of orthodontic appliances-should we care?, Am. J. Orthod. Dentofac. Orthop. Vol 133, pp.584–592, 2008 .
[5]M. Cioffi, D. Gilliland, G. Ceccone, R. Chiesa, A. Cigada, Electrochemical release testing of nickel-titanium orthodontic wires in artificial saliva using thin layer activation, Acta Biomater. Vol. 1 pp.717–724, 2005 .
[6]S.M. Castro, M.J. Ponces, J.D. Lopes, M. Vasconcelos, M.C.F. Pollmann, Orthodontic wires and its corrosion - The specific case of stainless steel and beta-titanium, J. Dent. Sci.Vol.10, pp. 1–7, 2015.
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Published
2020-12-20
Issue
Section
Mechanical Engineering
